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I'm revisiting a question (How to test if numeric conversion will change value?) that as far as I was concerned was fully solved. The problem was to detect when a particular numeric value would overflow JavaScript's IEEE-754 Number type. The previous question was using C# and the marked answer worked perfectly.

Now I'm doing the exact same task but this time in Java and it doesn't work. AFAIK, Java uses IEEE-754 for its double data type. So I should be able to cast it back and forth to force the loss of precision but it round trips. Baffled by this I started poking deeper in Java and now I'm really confused.

In both C# and Java, the min and max values for long are the same:

long MIN_VALUE = -9223372036854775808L;
long MAX_VALUE = 9223372036854775807L;

AFAIK, these values are outside the representable numbers in IEEE-754 because of the fixed bits reserved for the exponent and sign.

// this fails in browsers that have stuck with the pure ECMAScript Number format
var str = Number(-9223372036854775808).toFixed();
if ("-9223372036854775808" !== str) { throw new Error("Overflow!"); }

This returns false for (value = -9223372036854775808L) in Java:

boolean invalidIEEE754(long value) {
    try {
        return ((long)((double)value)) != value;
    } catch (Exception ex) {
        return true;
    }
}

This returns false for (value = -9223372036854775808L) in Java:

boolean invalidIEEE754(long value) {
    // trying to get closer to the actual representation and
    // being more explicit about conversions
    long bits = Double.doubleToLongBits(Long.valueOf(value).doubleValue());
    long roundtrip = Double.valueOf(Double.longBitsToDouble(bits)).longValue();
    return (value != roundtrip);
}

This returns true for (value = -9223372036854775808L) but is less accurate:

boolean invalidIEEE754(long value) {
    return (0x0L != (0xFFF0000000000000L & (value < 0L ? -value : value)));
}

Why does this work this way? Am I missing something like compiler optimization, e.g. is the compiler detecting my conversions and "fixing" them for me?

Edit: Adding test case by request. All three of these tests fail:

import static org.junit.Assert.*;
import org.junit.Test;

public class FooTests {

    @Test
    public void ieee754One() {
        assertTrue(((long)((double)Long.MIN_VALUE)) != Long.MIN_VALUE);
    }

    @Test
    public void ieee754Two() {
        long bits = Double.doubleToLongBits(Long.valueOf(Long.MIN_VALUE).doubleValue());
        long roundtrip = Double.valueOf(Double.longBitsToDouble(bits)).longValue();

        assertTrue(Long.MIN_VALUE != roundtrip);
    }

    @Test
    public void ieee754Three() {
        long bits = Double.doubleToRawLongBits(Long.valueOf(Long.MIN_VALUE).doubleValue());
        long roundtrip = Double.valueOf(Double.longBitsToDouble(bits)).longValue();

        assertTrue(Long.MIN_VALUE != roundtrip);
    }
}
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  • Both methods return false for me. JDK 1.6.0_21.
    – axtavt
    Dec 3, 2010 at 19:37
  • Interesting! Now I'm really confused. Mine is running via JUnit but should be on JDK 1.6.0_21 as well.
    – mckamey
    Dec 3, 2010 at 19:42
  • Can you show the full testcase?.
    – axtavt
    Dec 3, 2010 at 19:49
  • Sorry I had the true/falses swapped! Too many not-not's when talking about this. Sorry for the confusion. Your results are the same as mine.
    – mckamey
    Dec 3, 2010 at 20:00

1 Answer 1

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-9223372036854775808L is representable as an IEEE-754 double-precision number. It is exactly -2^63, which has the double representation -1.0 x 2^63 and encoding 0xc3e0000000000000.

Double is capable of representing numbers much, much larger than this. However, it is not capable of representing all integers in the range of representable numbers. For example, if you add one to the number, you will get -9223372036854775807 = -2^63 + 1, which is not representable as a double-precision value, and will not survive the round-trip conversion.

Converting -2^63 + 1 to double will round it to the nearest representable double value, which is -2^63; conversion back to long will preserve that value.

Edit: What platform did you do you JavaScript test on? In current Safari,

"-9223372036854775808" === Number(-9223372036854775808).toFixed()

evaluates as True.

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  • Also interesting. Sounds like I choose a bad test case! Why would it work in C# though? That confuses me.
    – mckamey
    Dec 3, 2010 at 20:05
  • @McKAMEY: If it actually "works" in C#, that's contrary to the IEEE-754 standard. Have you observed this? Dec 3, 2010 at 20:07
  • Yeah it was my test case and it "passed" :) Then I moved it over to Java and it wasn't.
    – mckamey
    Dec 3, 2010 at 20:13
  • Sweet. (Long.MIN_VALUE+1) and (Long.MAX_VALUE-1) work as expected. With simple casting. Now I'm concerned about the C# implementation...
    – mckamey
    Dec 3, 2010 at 20:19
  • @McKAMEY: I don't think that Microsoft claims C# adheres to IEEE-754, but that's pretty appalling. I would file a bug report if you can't find a good reason for the misbehavior. Dec 3, 2010 at 20:21

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